Bispecific antibodies targeting immunomodulatory checkpoints for cancer therapy

Advances in antibody engineering have led to the generation of more innovative antibody drugs,such as bispecific antibodies(bs Abs).Following the success associated with blinatumomab,bs Abs have attracted enormous interest in the field of cancer immunotherapy.By specifically targeting two different antigens,bs Abs reduce the distance between tumor and immune cells,thereby enhancing tumor killing directly.There are several mechanisms of action upon which bs Abs have been exploited.Accumulating experience on checkpoint-based therapy has promoted the clinical transformation of bs Abs targeting immunomodulatory checkpoints.Cadonilimab(PD-1×CTLA-4)is the first approved bs Ab targeting dual inhibitory checkpoints,which confirms the feasibility of bs Abs in immunotherapy.In this review we analyzed the mechanisms by which bs Abs targeting immunomodulatory checkpoints and their emerging applications in cancer immunotherapy.

Preparation and Characterization for Bispecific Antibodies of Anti-CD3×Anti-Idiotype to BCellLym phocytic Leukem ia

Bispecific antibodies (BsAbs) of anti CD3×anti idiotype (Id) to B cell lymphocytic leukemia (CLL) were prepared by chemical conjugation and direct hybridization technique of hybridoma and hybridoma without screening markers. The specificity of BsAbs from culture supernatants or ascites was assayed by indirect ELISA and indirect immunoflurescence (IF). The results showed that BsAbs could specifically react with homologous serum IgM from patients with B CLL and cells carrying CD3 marker respectively. Cell combination test and LDH assay demonstrated that BsAb significantly increased the conjugate formation between lymphocyte activated kill (LAK) cells and Daudi cells, and enhanced the cytotoxic activity of LAK cells against Daudi cells.

Efficacy of Bispecific Antibody Targeting EpCAM and CD3 for Immunotherapy in Ovarian Cancer Ascites:An Experimental Study

Objective This study aimed to explore the value of M701,targeting epithelial cell adhesion molecule(EpCAM)and CD3,in the immunotherapy of ovarian cancer ascites by the in vitro assay.Methods The expression of EpCAM in ovarian cancer tissues was analyzed by databases.The EpCAM expression and immune cell infiltration in different foci of ovarian cancer were detected by 8-channel flow cytometry.The toxic effect of M701 on OVCAR3 was tested using the in vitro cytotoxicity assay.The 3D cell culture and drug intervention experiments were performed to evaluate the therapeutic effect of M701 in ovarian cancer specimens.Flow cytometry was used to examine the effect of M701 on the binding of immune cells to tumor cells and the activation capacity of T cells.Results The results of the bioinformatic analysis showed that the expression of EpCAM in ovarian cancer tissue was significantly higher than that in normal ovarian tissue.The 8-channel flow cytometry of clinical samples showed that the EpCAM expression and lymphocyte infiltration were significantly heterogeneous among ovarian cancer patients and lesions at different sites.The in vitro experiment results showed that M701 had a significant killing effect on OVCAR3 cells.M701 also obviously killed primary tumor cells derived from some patients with ovarian cancer ascites.M701 could mediate the binding of CD3^(+)T cells to EpCAM^(+)tumor cells and induce T cell activation in a dose-dependent manner.Conclusion M701 showed significant inhibitory activity on tumor cells derived from ovarian cancer ascites,which had a promising application in immunotherapy for patients with ovarian cancer ascites.

Construction,expression and binding specificity of bispecific CD3×VEGFR-2 and CD3×NCAM antibodies in the single chain and diabody format

Bispecific antibodies are recombinant proteins with novel immunological properties and therapeutic potential. Recombinant protein quality and activity of several bispecific antibodies comprising different variable domain combinations with respect to the parental monospecific single chain fragments (scFv) were evaluated after expression in bacteria or mammalian cells. The parental scFv proteins humanized anti-NCAM scFv, murine anti-VEGFR-2 scFv, murine and humanized anti-CD3 scFv, respectively, could successfully be expressed in E. coli, whereas the murine anti-NCAM scFv version could not be reliably detected. Bispecific CD3 × VEGFR-2 and CD3 × NCAM anti-bodies were expressed in the bispecific single chain and the single chain diabody format. However, the diabody derived from the murine anti-NCAM scFv could not efficiently be expressed in E. coli or in mammalian cells. Significant binding of the CD3 × NCAM single chain diabody comprising the humanized version of anti-CD3 and humanized version of anti-NCAM was efficient to both antigens. Nevertheless, binding of the bispecific single chain version to the NCAM antigen was inefficient in comparison to CD3 binding. In conclusion, the data could indicate that the result of scFv expression in bacteria may be predictive for the chances of success for functional expression of more complex bispecific derivatives.

Selection for Anti-transferrin Receptor Bispecific T-cell Engager in Different Molecular Formats

Selecting an ideal molecular format from diverse structures is a major challenge in developing a bispecific antibody(BsAb).To choose an ideal format of anti-CD3 x anti-transferrin receptor(TfR)bispecific antibodies for clinical application,we constructed TfR bispecific T-cell engager(BiTE)in two extensively applied formats,including single-chain tandem singlechain variable fragments(scFvs)and double-chain diabodies,and evaluated their functional characterizations in vitro.Results demonstrated that TfR-BiTE in both formats directed potent killing of TfR+HepG2 cells.However,compared to two・chain diabodies,scFvs were more efficient in antigen binding and TfR target killing.Furthermore,different domain orders in scFvs would also be evaluated because single-TfR-CD3-His was preferable to single-CD3-TfR-His in immunotherapeutic strategies.Thus,the single-chain tandem TfR-CD3 format was favored for further investigation in cancer therapy.

Bispecific antibody drug conjugates:Making 1+1>2

Bispecific antibody‒drug conjugates(BsADCs)represent an innovative therapeutic category amalgamating the merits of antibody‒drug conjugates(ADCs)and bispecific antibodies(BsAbs).Positioned as the next-generation ADC approach,BsADCs hold promise for ameliorating extant clinical challenges associated with ADCs,particularly pertaining to issues such as poor internalization,off-target toxicity,and drug resistance.Presently,ten BsADCs are undergoing clinical trials,and initial findings underscore the imperative for ongoing refinement.This review initially delves into specific design considerations for BsADCs,encompassing target selection,antibody formats,and the linker–payload complex.Subsequent sections delineate the extant progress and challenges encountered by BsADCs,illustrated through pertinent case studies.The amalgamation of BsAbs with ADCs offers a prospective solution to prevailing clinical limitations of ADCs.Nevertheless,the symbiotic interplay among BsAb,linker,and payload necessitates further optimizations and coordination beyond a simplistic“1+1”to effectively surmount the extant challenges facing the BsADC domain.

Stepping forward:T-cell redirecting bispecific antibodies in cancer therapy

T cell-redirecting bispecific antibodies are specifically designed to bind to tumor-associated antigens,thereby engaging with CD3 on the T cell receptor.This linkage between tumor cells and T cells actively triggers T cell activation and initiates targeted killing of the identified tumor cells.These antibodies have emerged as one of the most promising avenues within tumor immunotherapy.However,despite success in treating hematological malignancies,significant advancements in solid tumors have yet to be explored.In this review,we aim to address the critical challenges associated with T cellredirecting bispecific antibodies and explore novel strategies to overcome these obstacles,with the ultimate goal of expanding the application of this therapy to include solid tumors.

Basic regulatory science behind drug substance and drug product specifications of monoclonal antibodies and other protein therapeutics

In this review,we focus on providing basics and examples for each component of the protein therapeutic specifications to interested pharmacists and biopharmaceutical scientists with a goal to strengthen understanding in regulatory science and compliance.Pharmaceutical specifications comprise a list of important quality attributes for testing,references to use for test procedures,and appropriate acceptance criteria for the tests,and they are set up to ensure that when a drug product is administered to a patient,its intended therapeutic benefits and safety can be rendered appropriately.Conformance of drug substance or drug product to the specifications is achieved by testing an article according to the listed tests and analytical methods and obtaining test results that meet the acceptance criteria.Quality attributes are chosen to be tested based on their quality risk,and consideration should be given to the merit of the analytical methods which are associated with the acceptance criteria of the specifications.Acceptance criteria are set forth primarily based on efficacy and safety profiles,with an increasing attention noted for patient-centric specifications.Discussed in this work are related guidelines that support the biopharmaceutical specification setting,how to set the acceptance criteria,and examples of the quality attributes and the analytical methods from 60 articles and 23 pharmacopeial monographs.Outlooks are also explored on process analytical technologies and other orthogonal tools which are on-trend in biopharmaceutical characterization and quality control.

Hepatitis B virus reactivation in patients treated with monoclonal antibodies

Hepatitis B virus(HBV)reactivation poses a significant clinical challenge,espe-cially in patients undergoing immunosuppressive therapies,including mono-clonal antibody treatments.This manuscript briefly explores the complex rela-tionship between monoclonal antibody therapy and HBV reactivation,drawing upon current literature and clinical case studies.It delves into the mechanisms underlying this phenomenon,highlighting the importance of risk assessment,monitoring,and prophylactic measures for patients at risk.The manuscript aims to enhance the understanding of HBV reactivation in the context of monoclonal antibody therapy,ultimately facilitating informed clinical decision-making and improved patient care.This paper will also briefly review the definition of HBV activation,assess the risks of reactivation,especially in patients treated with monoclonal antibodies,and consider management for patients with regard to screening,prophylaxis,and treatment.A better understanding of patients at risk can help clinicians provide optimum management to ensure successful patient outcomes and prevent morbidity.

Unlocking the potential of bispecific ADCs for targeted cancer therapy

Antibody–drug conjugates(ADCs)are biologically targeted drugs composed of antibodies and cytotoxic drugs connected by linkers.These innovative compounds enable precise drug delivery to tumor cells,minimizing harm to normal tissues and offering excellent prospects for cancer treatment.However,monoclonal antibody-based ADCs still present challenges,especially in terms of balancing efficacy and safety.Bispecific antibodies are alternatives to monoclonal antibodies and exhibit superior internalization and selectivity,producing ADCs with increased safety and therapeutic efficacy.In this review,we present available evidence and future prospects regarding the use of bispecific ADCs for cancer treatment,including a comprehensive overview of bispecific ADCs that are currently in clinical trials.We offer insights into the future development of bispecific ADCs to provide novel strategies for cancer treatment.

Monoclonal antibodies as therapeutic agents in oncology and antibody gene therapy

Antibodies as therapeutic agents are mostly used in oncology, as illustrated by their applications in lymphoma, breast cancer or colorectal cancer. This review provides a brief historical sketch of the development of monoclonal antibodies for cancer treatment and summarizes the most significant clinical data for the best-established reagents to date. It also discusses strategies to improve the anti-tumor efficacy of antibody therapy, including antibody gene therapy and exploitation of bone marrow derived primary mesenchymal stem cells as the antibody gene transporter.

PRODUCTION AND APPLICATION OF MONOCLONAL ANTIBODY TO POLYAMINE (PREPARATION AND CHARACTERISTICS OF MONOCLONAL ANTIBODIES AGAINST SPERMIDINE)

A monoclonal antibody was first prepared by fusion of mouse myeloma cells (SP2/0-Ag-14) with spleen cells isolated from male BALB/ c mice immunized with spermidine-bovine serum albumin conjugate (SPD- BSA). The hybridoma cell line producing antibody specific for spermidine was cultured in vitro and after i. p. into mice, the ascitic fluid gave suitably high dilution titres (1: 106) by enzyme immunoassay. This monoclonal antibody is of IgG1 class and the bimolecular compleex with molecular weight of 52KD and 27 KD. The monoclonal antibody was clearly specific to spermidine comparing with spermine or putriscine. Monclonal antibody may prove to be useful in the rapid diagnosis and evaluation of patients with cancer.

Analysis of Specific Th1/Th2 Helper Cell Responses and IgG Subtype Antibodies in Anti-CD4 Monoclonal Antibody Treated Mice with Autoimmune Cardiomyopathy

The cytokine repertoire of ADP/ATP carrier-specific humoral immune responses and the cytokine-dependent anti-ADP/ATP carrier antibody IgG subclasses were examined in a cohort of ADP/ATP carrier-immunized BALB/c mice treated with anti-CD4 monoclonal antibody. Eighteen male BALB/c mice （6–8 weeks old） were randomized into 3 groups： dilated cardiomyopathy （DCM） group, DCM-tolerance （Tol） group and control group. The mice in DCM group were immunized with the peptides derived from human ADP/ATP carrier protein for 6 months and mice in the control group were sham-immunized, while the mice in DCM-Tol group were immunized with ADP/ATP carrier protein and anti-CD4 McAb simultaneously. Serum autoantibody against ADP/ATP carrier and IgG subclasses were measured by ELISA, intracellular cytokines IFN-γ and IL-4 of Th cells were moni- tored with flow cytometry, and splenic T cell cytokines IFN-γ, IL-2, IL-4 and IL-6 were detected by using real-time fluorescent quantitative PCR. The results showed that the autoantibody against ADP/ATP carrier was found in all mice in DCM group, and the antibody level, serum IgG1 and IgG2a subclasses, cytokines in T cells and Th cells were all elevated in DCM group, as compared with those in control group （P〈0.01）. On the other hand, in DCM-Tol group, the autoantibody level and contents of all the cytokines were significantly different from those in DCM group （P〈0.01）, and were close to those in control group. And the levels of IgG1, IgG2a, IgG2b and IgG3 were influenced, to varying degrees, by anti-CD4 McAb as compared with those in DCM group. All these four types of IgG subclasses were substantially decreased in DCM-Tol group as compared with DCM group. It is concluded that the treatment with anti-CD4 McAb could prevent the activation of T cells, reverse the abnormal secretion of cytokines and the imbalance between Th1/Th2 cell subsets and abnormal production of autoantibody against ADP/ATP carrier, and eventually avoid myocardial injuries.

THE USE OF ANTI-HUMAN GLIOMA MONOCLONAL ANTIBODIES FOR TARGETING CHEMOTHERAPY OF BRAIN GLIOMAS(PREPARATION AND CYTOTOXIC PROPERTIES OF ANTIBODY-ADRIAMYCIN IMMUNOCONJUGATES)

Immunoconjugates are antibody-drug hybrid molecules which combine the exquisite selectivity or monoclonal antibodies with the potent toxicity of anticancer agents. A monoclonal antibody SZ39 against human brain gliomas was used as a drug carrier. Adriamycin (ADR) was bound covalently to SZ39 to form a SZ39-ADR conjugate. The cytotoxic activity of the SZ39-ADR conjugate was tested in vitro and demonstrated potent and specific killing of cells derived from a human malignant glioma. 50% inhibitory concentration (IC50) for SZ39-ADR to 'target' cells was 8.14×10-9 M. An index of specificity between 'target' and 'non-target' cells was calculated to be 88-fold. These data suggest that the SZ39-ADR may use as a potent and cell type-specific agent and is a likely candidate for the targeting chemotherapy of malignant gliotnas.

Development and Characterization of Monoclonal Antibody Specific to Nuclear Protein of Avian Influenza Virus Type A

Five monoclonal antibodies（Mabs） to nuclear protein of avain influenza virus（AIV） were developed by syncretizing SP 2/0 and the spleen cells from BALB of mice immuized with H9 subtype AIV. Specificity of these Mabs were identified by immunofluorescent assay（IFA） and enzyme linked immunosorbent assay （ELISA）. These five Mabs which were named as AIV-NP-2C3, AIV-NP-6A5, AIV-NP-3 H9, AIV-NP-7B4, AIV-NP-2H4 could react with all viruses of AIV-H9 strains in tests. The result of Western blotting showed that only the 60 ku protein antigen of AIV-H9 could be recognized by the Mabs but never recognized by New castle disease virus, REV and infectious bursa disease virus. The result of preliminary application showed that avian influenza viruses could be deetected bv Mabs in IFA and ELISA. All these Mabs will probably play important roles in preventing and monitoring avian influenza viruses.

Establishment of Monoclonal Antibody Competitive ELISA Using Monoclonal Antibody Against VP1 Protein of Asia 1 Type Foot-and-Mouth Disease Virus

Using the purified VP1 protein of Asia 1 type foot-and-mouth disease virus as the antigen, the purified monoclonal antibody was labeled by the sodium periodate method and the monoclonal antibody competitive ELISA was established in this study. Ten positive porcine foot-and-mouth disease serums and more than two hundreds negative serum were tested, and the results were the same as the background of samples. The sensitivity test and replicate test indicated that this method was stable and sensitive, which was suitable for monitoring Asia 1 type porcine foot-and-mouth disease virus antibody.

Bispecific antibody and its clinical applications in cancer

Bispecific antibody (BsAb) usually consists of two different antigen-binding arms, by which it is capable of simultaneously binding to target cells and effector cells, and can directly mediate the killing of target cells by retargeting and activating effector cells. The development of BsAb research goes through three main stages: chemical cross-linking of murine-derived monoclonal antibody, hybrid hy-bridomas and engineered BsAb. Among them, engineered BsAb has more formats than the other two, such as diabody, ScdHLX, ScZip, ScCH3, ScFab and BsIgG, etc. Compared with former murine-derived BsAbs, engineered BsAb has lower immunogenicity and stronger penetrating capacity, and currently, some of them appear suitable for clinical application in yields and qualities. Up to now, several phase I and phase II clinical studies of BsAb, for instance, some (Fab’)2 and Diabodies, have been performed. Among those BsAbs, anti-CD3/anti-tumor BsAbs is most common, they not only can activate T cell and induce CD3AK

Challenges and strategies for next-generation bispecific antibody-based antitumor therapeutics

Bispecific antibodies(bsAbs)refer to a large family of molecules that recognize two different epitopes or antigens.Although a series of challenges,especially immunogenicity and chain mispairing issues,once hindered the development of bsAbs,they have been gradually overcome with the help of rapidly developing technologies in the past 5 decades.In the meantime,an increasing number of bsAb platforms have been designed to satisfy different clinical demands.Currently,numerous preclinical and clinical trials are underway,portraying a promising future for bsAb-based cancer treatment.Nevertheless,bsAb drugs still face enormous challenges in their application as cancer therapeutics,including tumor heterogeneity and mutational burden,intractable tumor microenvironment(TME),insufficient costimulatory signals to activate T cells,the necessity for continuous injection,fatal systemic side effects,and off-target toxicities to adjacent normal cells.Therefore,we provide several strategies as solutions to these issues,which comprise generating multispecific bsAbs,discovering neoantigens,combining bsAbs with other anticancer therapies,exploiting natural killer(NK)-cell-based bsAbs and producing bsAbs in situ.In this review,we mainly discuss previous and current challenges in bsAb development and underscore corresponding strategies,with a brief introduction of several typical bsAb formats.

A MONOCLONAL ANTIBODY RECOGNIZING NON DERIVATIVE 13 HYDROXY GIBBERELLINS AND THEIR GLUCOSIDES *

The production and characterization of a monoclonal antibody (MAb AB10) against GA 3 glucoside as well as GA 3 is described. MAb AB10 was derived from an immunogen in which human serum albumin (HSA) was linked to GA 3 at carbon 3. This antibody showed high affinity for GA 3 glucoside as well as for 13 hydroxy gibberellins (GA 1, GA 3, GA 5, etc). The affinity of MAb AB10 for 13 hydroxy GAs was significantly reduced by methylation of the 7 oic acid but not by glycosylation of 3 hydroxyl group. Based on this antibody, both of competitive enzyme linked immunosorbent assays (ELISAs) for GA 3 glucoside and for GA 3 were developed. These two ELISAs displayed linear detection ranges from 0 2 pmol to 20 pmol. Using these assays, the fluctuation of GA 3 like and GA 3 glucoside like substances in the leaves of Rumex japonicus was investigated. The results indicated that the glycosylation of free GAs was connected with leaf senescence and that the function of 6 benzyl amino purine in retarding the leaf senescence was probably related to delaying the process of glycosylation of free GAs.

Preparation and Preliminary Identification of Fluorescein Labeled Monoclonal Antibody against Canine Distemper Virus

[Objective] The aim of the present study was to develop a direct immunofluorescence method for the diagnosis of canine distemper （CD） with FITC-conjugated monoclonal antibodies （FITC-McAb）.[ Metbod] The McAb against CDV, designated as CE3, was purified with protein G and labeled with FITC through agitation method. After purification and identification, the optimal working concentration of FITC-labeled CE3 was determined. Then 61 clinical samples of suspected canine distemper were detected by direct immunofluorescence assay. [ Result] The absorption test, blocking test and specificity test showed that the labeled antibody had high specificity and sensitivity, but didn＇t have cross reaction with canine parvovirus （CPV）, canine parainfluenza virus （CPIV）, canine adenovirus （CAV） and rabies virus （RV）. The optimal working concentration was 1：80. The positive rate of clinical suspected samples was 48%. [ Conclusion] The direct immunofluorescence assay developed in this study was rapid, specific and convenient, and had great significance for the early diagnosis of canine distemper.